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Biotechnology and Ruminant Nutrition (Jerry Hughes Scholarship)

Published online by Cambridge University Press:  21 November 2017

A. S. Chaudhry
A. S. Chaudhry*
Affiliation:
Division of Animal Health and Husbandry, University of Bristol, Langford. BS18 7DU
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Extract

Biotechnology is the application of biological procedures and processes to manufacture and service industries (Armstrong, 1988). Any processes which require microorganisms (natural or genetically modified) or biological extracts should be related to biotechnology. Biotechnology has played a vital role in the production of novel products using a variety of microbes. These products have immense potential in improving not only the nutritive quality of crops (Chaudhry and Miller, 1994) but also utilization of food by animals. One such product is recombinant DNA-derived bovine somatotrophin (BST) which has been widely used for years to stimulate milk yield in dairy cows. However, its prolonged use adversely affects health, reproduction and birth weight and skeletal size of the offspring (Dr. Robert Cook, personal communication). Other products of importance are microbial cultures and purified enzymes. The cultures or enzymes are generally mixed with diets to enhance digestive efficiency of livestock by altering microbial activities in the rumen or gastrointestinal tract. They are safe to handle and kind to animals and environment (Dawson, 1992). Whilst biotechnology has a wide range of applications for livestock industry its role in ruminant nutrition is particularly emphasized.

Type
Ruminant Nutrition and Digestion
Information
Proceedings of the British Society of Animal Production (1972) , Volume 1994 , March 1994 , pp. 90
Copyright
Copyright © The British Society of Animal Production 1994

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References

References:

1. Armstrong, D.G. 1988. The implication of biotechnology for livestock production, nutrition and health. Nutr. Abstr. Rev. 48(8):415426.Google Scholar
2. Chaudhry, A.S. and Miller, E.L. 1994. Effect of peroxide-dependent enzyme systems on the in vitro digestibility of barley straw. J. Sci. Food Agric. (in press)Google Scholar
3. Chaudhry, A.S. and Webster, A.J.F. 1994. In vitro enzyme procedures to estimate rumen degradability of feed proteins. SCI symposium, 15 February, London.Google Scholar
4. Chaudhry, A.S. Webster, A.J.F. 1993. Direct measurement of post-rutninal digestibility of undegraded proteins from different feeds using rats. Proc. VII World Conf. Anim. Prod. Edmonton. Vol 2(15):3031.Google Scholar
5. Chaudhry, A.S., Webster, A.J.F. and Kitcherside, M.A. 1993. Alternatives to “in sacco” technique for the estimation of rumen degradability of dietary proteins. J.Anim. Sci. 71(Suppl 1):741.Google Scholar
6. Dawson, K. A. 1992. The use of Yeast cultures in animal feeds. In:(ed. Lyonns, T.P.) Proc. 9th Alltech Symp., Kentucky, USA.Google Scholar
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